RU2464103C1 - Set of hydraulic cyclones of fine ore suspension fractionation - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to ore suspension separation. Fine complex ore suspension separation system comprises set of hydraulic cyclones, pulp distributor and one to six hydraulic cyclones with total output of 12 to 70 m³/h mounted on frame support. Every hydraulic cyclone is made up of cone housing with intake chamber, feed and discharge branch pipes, and sand bed integrated along the bottom with beds of other cyclones, and furnished with inner lining from wear proof material. Cone section of hydraulic cyclone is formed by variable-thickness lining. Housing cylindrical section ID is 3.5-5.0 times larger than discharge branch pipe outlet diameter while branch pipe cross-section area makes 0.6-1.0 of feed branch pipe cross-section area and is 6-25 times larger than that of sand bed outlet channel at inner taper angle of housing bottom of 14-18 degrees.

EFFECT: higher efficiency and quality of separation, stable and reliable operation.

11 cl, 3 dwg

Description

The invention relates to techniques for the separation of ore suspensions, and in particular to units of hydrocyclones used in fractional separation systems of suspensions of finely ground ores, mainly polymetallic, in processing plants and mining and processing metallurgical plants, and can be used in the mining industry, black and color metallurgy, chemical and other industries.

Known battery hydrocyclone, in which single cyclones are combined into a removable unit by means of rigidly connected lower and upper plates dividing the cavity formed by the battery hydrocyclone body into a clarified product chamber, a receiving and slurry chamber, and the slurry chamber is additionally equipped with a nozzle for partial return of condensed product into the cavity of the water supply system (RU 2312713 C1, 12.20.2007).

Known battery hydrocyclone, in which individual hydrocyclones are combined into a battery, each hydrocyclone is made with a cylindrical housing with a constant angle of taper, contains a supply and discharge nozzles and a sand nozzle, as well as a receiving chamber. The hydrocyclone is made with a spiral pulp feed at half the circumference (Yu.E. Akkerman, G.B. Bukaty, B.V. Kschevalter and others. Guide to ore dressing. Preparatory processes. 2nd ed., Revised and ext. , M., Nedra, 1982, p. 188-189).

Known hydrocyclone, including a cylindrical conical housing with a tangential inlet and drain pipes, a sand hole. The hydrocyclone further comprises a vortex chamber hermetically connected to the hydrocyclone, including a cylindrical housing with a taper angle of 120 °, containing a tangential feed pipe located in the cylindrical part and connected to the water supply means, and a sand pipe located in the conical part. The hydrocyclone with the conical part is lowered into the vortex chamber to a depth of 3/4 of its cylindrical part (RU 2375120 C1, 12/10/2009).

Known hydrocyclone containing a cylindrical housing, a pipe for supplying the initial suspension and pipes for the removal of clarified and condensed fractions of the suspension. The hydrocyclone is equipped with a device for discharging the condensed suspension fraction, made in the form of two horizontal disks mounted coaxially to the hydrocyclone body, the lower of which is mounted on the shaft and can be rotated and vertically moved, and the upper has the shape of a ring, the inner diameter of which is equal to the diameter of the pipe for discharging the condensed fraction suspension and is rigidly connected to the body of the hydrocyclone forming a radial channel, and including a container for the condensed suspension fraction, rigidly connected to the upper claim and defining with it a cylindrical chamber with nozzles for discharging thickened slurry fraction (RU 2372147 C1, 10.11.2009).

Known hydrocyclone containing a housing with tangential inlet, drain and sand nozzles, a collection chamber for flotation products, a cylindrical glass and a blade swirl mounted coaxially to the drain pipe. In the lower conical part of the hydrocyclone, a hollow teardrop-shaped insert is mounted coaxially with it, fixed coaxially to the sand pipe, at the outlet of which a chipper is installed (RU 2385190 C1, 03/27/2010).

A hydrocyclone is known, including a cylindrical-conical housing with a constant angle of taper, a supply and a discharge pipe, a sand nozzle, as well as a receiving chamber. The hydrocyclone is made with tangential pulp inlet relative to the cylindrical working surface of the receiving chamber, and the lining of the flow part of the hydrocyclone is made of stone casting tiles (S.V. Shinkorenko, E.P. Beletsky, A.A. Shiryaev and others. Black ore dressing Metals, 2nd ed., revised and supplemented by S.F.Shinkorenko, M., Nedra, 1982, p.267).

The disadvantages of the known technical solutions are the relatively increased complexity of the design of these known hydrocyclone blocks, insufficient refinement of the technological parameters and the mutual coordination of the geometry of the cross sections of the technological channels of hydrocyclones, namely the nutrient, drain pipes and sand nozzles, which determine the hydrodynamic balance of the separated flows and, as a result, increased energy consumption at not high enough as fractional separation of suspensions, including those containing h the particle, fine grinding of ores, insecurity sufficiently prolonged turnaround cycle operation of said hydrocyclones, unresolved issues high resistance against abrasive erasure protection surfaces, on which the operating systems turnaround cycle duration. At the same time, increased wear of these surfaces reduces their service life and leads to a deterioration in the quality of separation of fractions of small particles during operation, including due to an increase in the imbalance of the output sections of the feed, drain and sand channels.

The problem solved by the present invention is to develop a block of hydrocyclones, providing an increase in the efficiency and quality of separation of ores into fractions while reducing energy consumption, as well as increasing the stability and duration of the unit without stopping to repair and replace wearing parts, improving the design of hydrocyclones, systems and parameters hydraulically interacting feed and drain pipe, as well as sand nozzles of the hydrocyclone in the developed block of hydrocyclones.

The problem is solved in that the proposed block of hydrocyclones of the system of fractional separation of suspensions of finely ground ores, mainly polymetallic, according to the invention, contains a slurry distributor - pulp and from one to six hydrocyclones with a total capacity of 12 to 70 m ³ / h of separated ore suspension, while the unit’s hydrocyclones are mounted on a support, preferably of a frame type, and each hydrocyclone contains a cylinder-conical body with a receiving chamber in the upper part connected by a power supply a nozzle with a distributor, and is equipped with a cover with a drain nozzle protruding into the housing at least to a large part of the height of the receiving chamber, as well as a sand nozzle, combined downward by the collector of the same name with similar nozzles of other hydrocyclones with the possibility of returning to the dome the oversized separators in the hydrocyclone block large particles, in addition, each hydrocyclone is preferably made of a combination of a set of sections of the cylindrical and conical parts of its volume and with a circular cylindrical external configuration the first and second of these sections, and is also equipped with an internal lining of wear-resistant material, for example rubber or polyurethane, while the conical part on the inside of the hydrocyclone is formed by a lining that is solved in the section from the cylindrical part to the sand nozzle with the possibility of its execution with variable thickness and with filling the lining material in the range from the conical to the outer cylindrical, common to the entire height of the hydrocyclone, each hydrocyclone of the said hydrocyclone block the bosom is made with a throughput of up to 20 m ³ / h of the passage of the above-mentioned ore suspension separated by fractions, while the inner diameter of the cylindrical part of the body, which determines the largest centrifugal take-off of the volumetric spiral swirl of the suspension flow, is 3.5 times greater than 5.0 times the outlet diameter of the drain pipe, and the cross-sectional area of the latter is 0.6 ÷ 1.0 cross-sectional area of the feed pipe and is 6 ÷ 25 times larger than the cross-sectional area of the output channel of the sand nozzle at an angle th taper of the lower part of the body of the hydrocyclone, comprising 14 ÷ 18 degrees.

In this case, the distributor can be made with a casing in the form of a cylinder lined on the inside with abrasion-resistant material, for example rubber or polyurethane, and is equipped at the bottom of the casing with an inlet flange pipe for detachable connection with a pressure pulp conduit of the ore suspension suspension separation system and outlet openings with flange nozzles for connection with nutrient nozzles communicating with hydrocyclones, and the outlet openings of the distributor are preferably coaxial with the inlet ports tures receiving chambers hydrocyclones, furthermore, a distributor provided with a cover on which is mounted a pressure sensor pulp entering the hydrocyclone unit.

The feed pipe of the hydrocyclone can be made with variable shape parameters, which passes from a curvilinear in cross section at the exit from the distributor to a rectangular one on the approach to the hydrocyclone with the possibility of oriented along the axis of the last slotted input into the receiving chamber of the hydrocyclone.

Prefabricated cylindrical and conical sections of hydrocyclones included in the block can be equipped with end flanges for detachable connection with adjacent sections, while at least one section along the height of the hydrocyclone is provided on the outside with supporting elements, preferably in the form of brackets, a supporting surface which is matched in height with the support plane equal to the block support.

The feed pipe at the outlet of the distributor can be mounted coaxially with the radius of the latter and tangentially communicated with the receiving chamber of the hydrocyclone, preferably associated with the outermost wall with the outer wall of the receiving chamber of the hydrocyclone.

The hydrocyclone can be made with an inner diameter of the cylindrical part of 150 ÷ 250 mm.

The feed pipe of the hydrocyclone can be made with a hole, the equivalent diameter of which is 25 ÷ 115 mm

The drain pipe of the hydrocyclone can be made with a diameter of 25 ÷ 115 mm.

The sand nozzle of the hydrocyclone can be made with a diameter of 8 ÷ 40 mm.

The block of hydrocyclones of the system for fractional separation of ore suspensions can be developed for systems for the fractional separation of suspensions of polymetallic, mainly gold-bearing ores, including those with inclusions of platinum, silver, and rare-earth metals.

The unit of hydrocyclones of the system for fractional separation of ore suspensions can be developed with the possibility of processing and separation of magnetite ores of iron ore deposits, for example, of the Kursk magnetic anomaly type.

The technical result provided by the given set of features consists in the development of a block of hydrocyclones providing increased efficiency and quality of separation of ore suspensions due to the interconnected structural and technological parameters developed in the invention, combined into a block of hydrocyclones and the sizes and ratios of the cross-sectional areas of the nutrient and drain found in the invention nozzles, as well as sand nozzles, optimal for the accepted combination of volume, configuration and angle of taper and hydrocyclone for a given size and density of the shared two-phase medium - aqueous ore slurry component of 1.1 ÷ 1.5 t / m ^3. When the ratios of the sections of the supply and drain pipes and the pressure of the suspension at the inlet to the hydrocyclones of the block 0.010 ÷ 0.0016 MPa in the hydrocyclones are specified, the pulp flow mode is established in which the conditioned fractions of fine ore are completely separated, and the diameter range adopted in the hydrocyclone the sand nozzle corresponds to the necessary and sufficient for removing substandard large particles from it through the sand nozzle at their percentage in the pulp, typical for the technologist fine ore grinding at ore mining and processing enterprises, for the parameters of which a block of hydrocyclones has been developed.

The invention is illustrated by drawings, where:

figure 1 shows a block of hydrocyclones with a distributor, a partial vertical section;

figure 2 - technological layout of hydrocyclones in the block, an option with six hydrocyclones, commutated with a distributor of nutrient pipes, top view;

figure 3 - hydrocyclone, front view.

The block of hydrocyclones 1 of the fractional separation system of finely ground suspensions, mainly polymetallic, contains a slurry distributor 2 — pulps and from one to six hydrocyclones 1 with a total capacity of 12 to 70 m ³ / h of the separated ore suspension.

The hydrocyclones 1 of the block are mounted on a support 3, preferably of a frame type. Each hydrocyclone 1 contains a cylinder-conical housing 4 with a receiving chamber 5 in the upper part connected by a supply pipe 6 to a distributor 2, and is provided with a cover with a drain pipe 7 protruding into the housing, at least for a large part of the height of the receiving chamber 5, as well as a sand nozzle 8, combined at the bottom of the collector of the same name with similar nozzles of other hydrocyclones 1 with the possibility of returning oversized large particles separated in the hydrocyclone block to the domino. Each hydrocyclone 1 is preferably prefabricated from a set of sections 9 and 10, respectively, of the cylindrical and conical parts of its volume and with a circular cylindrical external configuration of the first and second of these sections, and is also provided with an inner lining 11 of wear-resistant material, for example rubber or polyurethane. The conical part on the inner side of the hydrocyclone 1 is formed by a lining 11, which in the section from the cylindrical part to the sand nozzle 8 is solved with the possibility of its execution with variable thickness and filling the lining 11 with material from the conical to the outer cylindrical, common for the entire height of the hydrocyclone 1.

Each hydrocyclone 1 of the said block of hydrocyclones is made with a throughput of up to 20 m ³ / h of the passage of the said ore suspension separated by fractions. The inner diameter of the cylindrical part of the housing 4, which determines the largest centrifugal run of the volumetric spiral swirl of the suspension flow, is 3.5–5.0 times greater than the outlet diameter of the drain pipe 7, and the cross-sectional area of the latter is 0.6–1.0 cross-sectional areas the feed pipe 6 and 6 ÷ 25 times exceeds the cross-sectional area of the output channel of the sand nozzle 8 when the angle of the inner taper of the lower part of the housing 4 of the hydrocyclone 1, comprising 14 ÷ 18 degrees.

The distributor 2 is made with the housing 12 in the form of a cylinder lined on the inside with abrasion-resistant material 13, for example rubber or polyurethane, and is equipped in the lower part of the housing 12 with an inlet flange pipe 14 for detachable connection with a pressure pulp conduit of the system for separating ore suspensions and outlet openings with flange nozzles 15 for connection with the supply nozzles 6, communicating with the hydrocyclones 1. The outlet openings of the distributor 2 are preferably aligned with the inlet openings of the receiving 5 chambers of hydrocyclones 1. The distributor 2 is equipped with a cover 16, on which a pulp pressure sensor 17 is mounted at the inlet to the hydrocyclone block.

The feed pipe 6 of the hydrocyclone 1 is made with variable shape parameters, transitioning from a curvilinear in cross section at the exit from the distributor 2 to a rectangular one on the approach to the hydrocyclone 1 with the possibility of oriented along the axis of the last slotted input into the receiving chamber 5 of the hydrocyclone 1.

Prefabricated cylindrical and conical sections 9 and 10 of the hydrocyclones 1 included in the block are equipped with end flanges 18 for detachable connection with adjacent sections. At least one section along the height of the hydrocyclone 1 is provided on the outside with support elements, preferably in the form of brackets, the support surface of which is aligned in height with the plane of support equal to the support 3 of the block.

The feed pipe 6 at the outlet of the distributor 2 is mounted coaxially with the radius of the latter and is tangentially connected with the receiving chamber 5 of the hydrocyclone 1, preferably associated with the outermost wall with the outer wall of the receiving chamber 5 of the hydrocyclone 1.

The hydrocyclone 1 is made with an inner diameter of the cylindrical part of 150 ÷ 250 mm.

The feed pipe 6 of the hydrocyclone 1 is made with a hole, the equivalent diameter of which is 25 ÷ 115 mm

The drain pipe 7 of the hydrocyclone 1 is made with a diameter of 25 ÷ 115 mm

The sand nozzle 8 of the hydrocyclone 1 is made with a diameter of 8 ÷ 40 mm.

The block of hydrocyclones of the system for fractional separation of ore suspensions is designed for systems of fractional separation of suspensions of polymetallic, mainly gold-bearing, ores, including those with inclusions of platinum, silver and rare-earth metals.

The hydrocyclone block of the fractional separation system of ore suspensions is designed to process and separate magnetite ores from iron ore deposits, for example, the Kursk Magnetic Anomaly type.

The proposed block of hydrocyclones works as follows.

When the separation system is operating, the ore suspension - pulp is fed through the pressure pulp line to the hydrocyclone block 1. The pulp enters the hydrocyclones 1 through the distributor 2. The pulp stream is accelerated in the feed pipe 6 of the hydrocyclone 1 and tangentially fed into its cylindrical part. Further, the pulp with centrifugal acceleration spirals downward along the inner conical part of the housing 4 of the hydrocyclone 1 to the sand nozzle 8, where there is a backwater. The main part of the extracted fine fraction in the form of a suspension rises and through the drain pipe 7 is sent to other technological systems. Larger fractions, clinging to the conical part of the housing 4, form a spiral-shaped slurry stream, which, through the sand nozzle 8, goes down to the dome.

Thus, due to the interconnected structural and technological parameters developed in the invention, combined into a hydrocyclone block and the sizes and ratios of the cross-sectional areas of the feed and drain pipes, as well as the sand nozzle, which are optimal for the combination of volume, configuration, and taper angle of the hydrocyclone under predetermined volumes and density of the shared two-phase medium, the efficiency and quality of separation of ore suspensions increases, and the interval of value accepted in the hydrocyclone the diameter of the sand nozzle corresponds to the necessary and sufficient for removing substandard large particles from it through the sand nozzle at their percentage in the pulp, typical for the technology of fine grinding of ore at mining and processing plants, for which a block of hydrocyclones has been developed.

Claims (11)

1. The system of fractional separation of suspensions of finely ground ores, mainly polymetallic, comprising a block of hydrocyclones, characterized in that it contains a slurry distributor in the form of pulp and from one to six hydrocyclones of the said block with a total capacity of 12 to 70 m ³ / h of the separated ore suspension, while the hydrocyclones of the block are mounted on a support, preferably of a frame type, and each hydrocyclone contains a cylinder-conical body with a receiving chamber in the upper part connected by a feed pipe with a pulp distributor, a cover with a drain pipe protruding into the housing at least to a large part of the height of the receiving chamber, a sand nozzle combined downward by a sand collector with sand nozzles of other hydrocyclones with the possibility of returning oversized large particles separated in the hydrocyclone block, each hydrocyclone is prefabricated from a set of sections of cylindrical and conical parts and with a circular cylindrical external configuration of the first and second of these sections, and is equipped with an internal an early lining made of wear-resistant material in the form of rubber or polyurethane, while the conical part on the inside of the hydrocyclone is formed by a lining that, in the section from the cylindrical part to the sand nozzle, is made with variable thickness and can be filled with lining material in the range from the conical to the outer cylindrical for the entire height of the hydrocyclone, while the inner diameter of the cylindrical part of the body, which determines the largest centrifugal take-off of the volumetric spiral swirl the suspension current, which is 3.5–5.0 times greater than the outlet diameter of the drain pipe, and the cross-sectional area of the latter is 0.6–1.0 times the cross-sectional area of the feed pipe and 6–25 times larger than the cross-sectional area of the sand output channel nozzles with an angle of internal taper of the lower part of the hydrocyclone body, comprising 14 ÷ 18 degrees. 2. The system according to claim 1, characterized in that the pulp distributor has a housing in the form of a cylinder lined on the inside with abrasion-resistant material, for example rubber or polyurethane, and is equipped with an inlet flange in the lower part of the housing for detachable connection to the pressure discharge system piping separation of ore suspensions and outlet openings with flange nozzles for connection with feeding nozzles communicating with hydrocyclones, the outlet openings of the pulp distributor being made, preferably coaxial with the inlet openings of the hydrocyclone receiving chambers, the pulp distributor being provided with a cover on which the pulp pressure sensor is mounted at the inlet of the hydrocyclone block. 3. The system according to claim 1, characterized in that the feed pipe of the hydrocyclone is made with variable shape parameters, passing from curved in cross section at the exit from the distributor to a rectangular one on the approach to the hydrocyclone with the possibility of oriented along the axis of the last slotted input into the receiving chamber of the hydrocyclone . 4. The system according to claim 1, characterized in that the cylindrical and conical sections of the hydrocyclones included in the block are provided with end flanges for detachable connection with adjacent sections, while at least one section along the height of the hydrocyclone is provided with support elements from the outside , preferably in the form of brackets, the supporting surface of which is aligned in height with the plane of support equal to the support of the surface of the block. 5. The system according to claim 1, characterized in that the feed pipe at the outlet of the distributor is mounted coaxially with the latter, tangentially communicated with the receiving chamber of the hydrocyclone, and is connected with the outermost wall with the outer wall of the receiving chamber of the hydrocyclone. 6. The system according to claim 1, characterized in that each hydrocyclone is made with an inner diameter of the cylindrical part of 15 ÷ 250 mm 7. The system according to claim 1, characterized in that the feed pipe of the hydrocyclone is made with a hole, the equivalent diameter of which is 25 ÷ 115 mm 8. The system according to claim 1, characterized in that the drain pipe of the hydrocyclone is made with a diameter of 25 ÷ 115 mm 9. The system according to claim 1, characterized in that the sand nozzle of the hydrocyclone is made with a diameter of 8 ÷ 40 mm 10. The system according to claim 1, characterized in that it is designed for fractional separation systems of suspensions of polymetallic, mainly gold-bearing, ores, including with inclusions of platinum, silver and rare-earth metals. 11. The system according to claim 1, characterized in that it is configured to separate magnetite ores of iron ore deposits, for example, type Kursk magnetic anomaly.

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